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Full-Text Articles in Physical Sciences and Mathematics
Estimation Of Planetary Orbits Via Vectorial Relativity (Vtr), Jorge A. Franco
Estimation Of Planetary Orbits Via Vectorial Relativity (Vtr), Jorge A. Franco
Jorge A Franco
The equation (approximate) for the Movement of Planets about a Massive Body, according to the theory VTR, is: d2u/(d2) + (1-6).u = , where u = 1/r and are parameters. Applying the previous model we obtain the paths of several planets of the Solar System. In addition we obtain the precession for every planet using the formula given by the Vectorial Relativity and we compare it with the values of the precession given by the GTR (General Theory of the Relativity).
Local Lorentz Transformations And Vectorial Relativity, Jorge A. Franco, Jose G. Quintero
Local Lorentz Transformations And Vectorial Relativity, Jorge A. Franco, Jose G. Quintero
Jorge A Franco
In previous work it was shown that instead of the known Lorentz Transformations (LT) the new obtained Vectorial Lorentz Transformations (VLT) were the transformations that truly respected the postulates of the Principle of Relativity and the consideration of the speed of light as a universal constant. In this review is presented the way how it is possible to obtain practical consequences of the VLT, and its applications to our real life.